Question
Calculate the capacitance between the points $P$ and $Q$ in the following circuit(a) $1.5 \mu \mathrm{F}$(b) $3 \mu \mathrm{F}$(c) $2 \mu \mathrm{F}$(d) $1 \mu \mathrm{F}$
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For circuit the equivalent capacitance between points $\mathrm{P}$ and $\mathrm{Q}$ is if $\mathrm{C}_{1}=2 \mu \mathrm{F}, \mathrm{C}_{2}=3 \mu \mathrm{F}, \mathrm{C}_{3}=5 \mu \mathrm{F}, \mathrm{C}_{4}=10 \mu \mathrm{F}$. (A) $6 \mu \mathrm{F}$ (B) $4 \mu \mathrm{F}$ (C) $(3 / 2) \mu \mathrm{F}$ (D) $5 \mu \mathrm{F}$
Find the equivalent capacitance between points $a$ and $b$ for the group of capacitors connected as shown in Figure $\mathrm{P} 26.23$ . Take $C_{1}=5.00 \mu \mathrm{F}, C_{2}=10.0 \mu \mathrm{F},$ and $C_{3}=$ $2.00 \mu \mathrm{F} .$
Calculate the equivalent capacitance between the points $a$ and $b$ in Figure $\mathrm{P} 26.72$ . Note that this is not a simple series or parallel combination. (Suggestion: Assume a potential difference $\Delta V$ between points $a$ and $b .$ Write expressions for $\Delta V_{a b}$ in terms of the charges and capacitances for the various possible pathways from $a$ to $b,$ and require conservation of charge for those capacitor plates that are connected to each other.)
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